00934cam0 22002533 450 SOB01733920211018075515.0019872159520040211d1995 |||||ita|0103 baengUSAristophanes and AthensAn introduction to the PlaysDouglas M. MacDowellOxfordNew YorkOxford University Press1995XIV,362 p.21 cmMacDowell, Douglas M.AF00011322070459610ITUNISOB20211018RICAUNISOBUNISOBFondo|Crie111347SOB017339M 102 Monografia moderna SBNMFondo|Crie000537SI111347CrieacquistocatenaccifUNISOBUNISOB20160401092639.020211018075515.0bethbPer le modalità di consultazione sulla home page della Biblioteca link FondiAristophanes and Athens1079417UNISOB04135nam 2201045z- 450 9910404084103321202102123-03928-832-6(CKB)4100000011302297(oapen)https://directory.doabooks.org/handle/20.500.12854/60408(oapen)doab60408(EXLCZ)99410000001130229720202102d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierSynthesis and Applications of Nanomaterials for Photocatalysis and ElectrocatalysisMDPI - Multidisciplinary Digital Publishing Institute20201 online resource (213 p.)3-03928-831-8 Heterogeneous catalysis, exploiting photo- and electrochemical reactions, has expanded rapidly in recent decades, having undergone various developments, especially from both energetic and environmental points of view. Photocatalysis plays a pivotal role in such applications as water splitting and air/water remediation. Electrocatalysis can be found in a large array of research fields, including the development of electroanalytical sensors, wastewater treatment, and energy conversion devices (e.g., batteries, fuel and solar cells, etc.). Therefore, the fine control of the synthetic procedures, together with extensive physicochemical characterisations of the tailor-made catalytic nanomaterials, are of fundamental importance to achieving the desired results. The present book will include recent enhancements in oxide/metal nanoparticles for photocatalytic and electrocatalytic applications, especially in the fields of pollutants abatement and energy conversion.active facetsactive site hydrophilicityactive speciesAlizarin Red Sascorbic acidband gap energybenzylic alcoholsBi4Ti3O12 nanosheetsblack TiO2CaIn2S4/ZnIn2S4 compositesCNT N-doped carbonscobalt phosphatecore-shell structuresCr(VI)degradationg-C3N4Ga2O3heterogeneous photocatalysishydrogen productionhydrogen titanatehydrothermal methodimpregnation pHinterfacial charge transferlocalized surface plasmon resonancemagnetron sputteringmesoporous Nb2O5micrometric TiO2mineralizationMn decorationnanocompositesnoble metal nanoparticlesorganic pollutantorganic pollutantsoxygen reduction reactionoxygen vacanciesoxygen vacancypharmaceuticalphotocatalysisphotocatalytic degradationphotocatalytic hydrogen evolutionphotocatalytic performancephotocatalytic selective oxidationphotodegradationphotodepositionphotoelectrochemistryporousPt-free catalystsrutilesimulated sunlightsolid-state chemical reductionsolid-state synthesisstructure-property relationshipssurface hydroxyl groupssurface modificationtantalum oxynitrideTi-C bondsTiO2visible lightvisible light photocatalysiswater oxidationZn2SnO4/BiOBrCappelletti Giuseppeauth1280923Bianchi ClaudiaauthBOOK9910404084103321Synthesis and Applications of Nanomaterials for Photocatalysis and Electrocatalysis3017675UNINA